Glenn H. Balbus scite author profile

Refractory multiprincipal element alloys (MPEAs) are promising materials to meet the demands of aggressive structural applications, yet require fundamentally different avenues for accommodating plastic deformation in the body-centered cubic (bcc) variants of these alloys. We show a desirable combination of homogeneous plastic deformability and strength in the bcc MPEA MoNbTi, enabled by the rugged atomic environment through which dislocations must navigate. Our observations of dislocation motion and atomistic calculations unveil the unexpected dominance of nonscrew character dislocations and numerous slip planes for dislocation glide. This behavior lends credence to theories that explain the exceptional high temperature strength of similar alloys. Our results advance a defect-aware perspective to alloy design strategies for materials capable of performance across the temperature spectrum.

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Time-Resolved Digital Image Correlation in the Scanning Electron Microscope for Analysis of Time-Dependent Mechanisms

Stinville

Francis

Polonsky

et al. 2020

Exp Mech

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Mapping the kinetic evolution of metastable grain boundaries under non-equilibrium processing

et al. 2020

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Disordered interfaces enable high temperature thermal stability and strength in a nanocrystalline aluminum alloy

et al. 2021

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Femtosecond laser rejuvenation of nanocrystalline metals

et al. 2018

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Glenn H. Balbus

Multiplicity of dislocation pathways in a refractory multiprincipal element alloy

Time-Resolved Digital Image Correlation in the Scanning Electron Microscope for Analysis of Time-Dependent Mechanisms

Mapping the kinetic evolution of metastable grain boundaries under non-equilibrium processing

Disordered interfaces enable high temperature thermal stability and strength in a nanocrystalline aluminum alloy

Femtosecond laser rejuvenation of nanocrystalline metals

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